\name{spatSample}

\docType{methods}

\alias{spatSample}
\alias{spatSample,SpatRaster-method}
\alias{spatSample,SpatExtent-method}
\alias{spatSample,SpatVector-method}

\title{Take a regular sample}

\description{
Take a spatial sample from a SpatRaster, SpatVector or SpatExtent. Sampling a SpatVector or SpatExtent always returns a SpatVector of points. 

With a SpatRaster, you can get cell values, cell numbers (\code{cells=TRUE}), coordinates (\code{xy=TRUE}) or (when \code{method="regular"} and \code{as.raster=TRUE}) get a new SpatRaster with the same extent, but fewer cells. 

In order to assure regularity when requesting a regular sample, the number of cells or points returned may not be exactly the same as the \code{size} requested unless you use \code{exact=TRUE}.
}

\usage{
\S4method{spatSample}{SpatRaster}(x, size, method="random", replace=FALSE, na.rm=FALSE, 
    as.raster=FALSE, as.df=TRUE, as.points=FALSE, values=hasValues(x), cells=FALSE, 
    xy=FALSE, ext=NULL, warn=TRUE, weights=NULL, exp=5, exhaustive=FALSE, 
	exact=FALSE, each=TRUE)

\S4method{spatSample}{SpatVector}(x, size, method="random", strata=NULL, chess="")

\S4method{spatSample}{SpatExtent}(x, size, method="random", lonlat, as.points=FALSE, exact=FALSE)
}

\arguments{
  \item{x}{SpatRaster, SpatVector or SpatExtent}
  \item{size}{numeric. The sample size. If \code{x} is a SpatVector, you can also provide a vector of the same length as \code{x} in which case sampling is done separately for each geometry. If \code{x} is a SpatRaster, and you are using \code{method="regular"} you can specify the size as two numbers (number of rows and columns). Note that when using \code{method="stratified"}, the sample size is returned for each stratum}
  \item{method}{character. Should be "regular" or "random", If \code{x} is a \code{SpatRaster}, it can also be "stratified" (each value in \code{x} is a stratum) or "weights" (each value in \code{x} is a probability weight)}
  \item{replace}{logical. If \code{TRUE}, sampling is with replacement (if \code{method="random"})}
  \item{na.rm}{logical. If \code{TRUE}, \code{NAs} are removed. Only used with random sampling of cell values. That is with \code{method="random", as.raster=FALSE, cells=FALSE}}
  \item{as.raster}{logical. If \code{TRUE}, a SpatRaster is returned}
  \item{as.df}{logical. If \code{TRUE}, a data.frame is returned instead of a matrix}
  \item{as.points}{logical. If \code{TRUE}, a SpatVector of points is returned}
  \item{values}{logical. If \code{TRUE} raster cell values are returned}
  \item{cells}{logical. If \code{TRUE}, cell numbers are returned. If \code{method="stratified"} this is always set to \code{TRUE} if \code{xy=FALSE}}
  \item{xy}{logical. If \code{TRUE}, cell coordinates are returned}
  \item{ext}{SpatExtent or NULL to restrict sampling to a subset of the area of \code{x}}
  \item{warn}{logical. Give a warning if the sample size returned is smaller than requested}
  \item{weights}{SpatRaster. Used to provide weights when \code{method="stratified"}}

  \item{lonlat}{logical. If \code{TRUE}, sampling of a SpatExtent is weighted by \code{cos(latitude)}. For SpatRaster and SpatVector this done based on the \code{\link{crs}}, but it is ignored if \code{as.raster=TRUE}}
  
  \item{exp}{numeric >= 1. "Expansion factor" that is multiplied with \code{size} to get an initial sample used for stratified samples and random samples with \code{na.rm=TRUE} to try to get at least \code{size} samples}
  
  \item{exhaustive}{logical. If \code{TRUE} and (\code{method=="random"} and \code{na.rm=TRUE}) or \code{method=="stratified"}, all cells that are not \code{NA} are determined and a sample is taken from these cells. This is useful when you are dealing with a very large raster that is sparse (most cells are \code{NA}). Otherwise, the default approach may not find enough samples. This should not be used in other cases, especially not with large rasters that mostly have values}
  \item{exact}{logical. If \code{TRUE} and \code{method=="regular"}, the sample returned is exactly \code{size}, perhaps at the expense of some regularity. Otherwise you get at least \code{size} many samples. Ignored for lon/lat rasters}
  \item{each}{logical. If \code{TRUE} and \code{method=="stratified"}, the sample returned is \code{size} for each stratum. Otherwise \code{size} is the total sample size}


  \item{strata}{if not NULL, stratified random sampling is done, taking \code{size} samples from each stratum. If \code{x} has polygon geometry, \code{strata} must be a field name (or index) in \code{x}. If \code{x} has point geometry, \code{strata} can be a SpatVector of polygons or a SpatRaster}
  \item{chess}{character. One of "", "white", or "black". For stratified sampling if \code{strata} is a SpatRaster. If not "", samples are only taken from alternate cells, organized like the "white" or "black" fields on a chessboard}
  

}

\value{
numeric matrix, data.frame, SpatRaster or SpatVector
}

\examples{
f <- system.file("ex/elev.tif", package="terra")
r <- rast(f)
s <- spatSample(r, 10, as.raster=TRUE)
spatSample(r, 5)
spatSample(r, 5, na.rm=TRUE)
spatSample(r, 5, "regular")

## if you require cell numbers and/or coordinates
size <- 6
spatSample(r, 6, "random", cells=TRUE, xy=TRUE, values=FALSE)

# regular, with values 
spatSample(r, 6, "regular", cells=TRUE, xy=TRUE)

# stratified
rr <- rast(ncol=10, nrow=10, names="stratum")
set.seed(1)
values(rr) <- round(runif(ncell(rr), 1, 3))
spatSample(rr, 2, "stratified", xy=TRUE)

s <- spatSample(rr, 5, "stratified", as.points=TRUE, each=FALSE)
plot(rr, plg=list(title="raster"))
plot(s, 1, add=TRUE, plg=list(x=185, y=1, title="points"), col=rainbow(5))
 
## SpatExtent 
e <- ext(r)
spatSample(e, 10, "random", lonlat=TRUE)

## SpatVector
f <- system.file("ex/lux.shp", package="terra")
v <- vect(f)

# sample the geometries 
i <- sample(v, 3)

# sample points in geometries
p <- spatSample(v, 3)

}

\keyword{spatial}
